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I would like to query a relational database if a set of items exists.

The data I am modeling are of the following form:

key1 = [ item1, item3, item5 ]
key2 = [ item2, item7 ]
key3 = [ item2, item3, item4, item5 ]
...

I am storing them in a table with the following schema

CREATE TABLE sets (key INTEGER, item INTEGER);

So for example, the following insert statements would insert the above three sets.

INSERT INTO sets VALUES ( key1, item1 );
INSERT INTO sets VALUES ( key1, item3 );
INSERT INTO sets VALUES ( key1, item5 );
INSERT INTO sets VALUES ( key2, item2 );
INSERT INTO sets VALUES ( key2, item7 );
INSERT INTO sets VALUES ( key3, item2 );
INSERT INTO sets VALUES ( key3, item3 );
INSERT INTO sets VALUES ( key3, item4 );
INSERT INTO sets VALUES ( key3, item5 );

Given a set of items, I would like the key associated with the set if it is stored in the table and NULL if it is not. Is it possible to do this with an sql query? If so, please provide details.

Details that may be relevant:

  • I am primarily interested in the database design / query strategy, though I will eventually implement this in MySQL and preform the query from with in python using the mysql-python package.
  • I have the freedom to restructure the database schema if a different layout would be more convenient for this type of query.
  • Each set, if it exists is supposed to be unique.
  • I am not interested in partial matches.
  • The database scale is on the order of < 1000 sets each of which contains < 10 items each, so performance at this point is not a priority.

Thanks in advance.

share|improve this question
    
Iam -1:ing all "thanks in advance" from now on. So ban me! –  stefan Mar 29 '11 at 23:08
    
Ask a real question. This is something your SQL prof should teach you (albeit he will probably teach you all wrong, so use internet resources instead) –  stefan Mar 29 '11 at 23:09
1  
@stefan, why so serious? –  epaps Mar 30 '11 at 0:05
    
@stefan Someone has a case of the Tuesdays. This is certainly a "real" question by StackOverflow's standards, if not by yours. –  Dan J Mar 30 '11 at 0:08
    
@djacobson "Thanks in advance" has this effect on me :) –  stefan Mar 30 '11 at 0:10

4 Answers 4

up vote 2 down vote accepted

I won't comment on whether there is a better suited schema for doing this (it's quite possible), but for a schema having columns name and item, the following query should work. (mysql syntax)

SELECT k.name
FROM (SELECT DISTINCT name FROM sets) AS k
INNER JOIN sets i1 ON (k.name = i1.name AND i1.item = 1)
INNER JOIN sets i2 ON (k.name = i2.name AND i2.item = 3)
INNER JOIN sets i3 ON (k.name = i3.name AND i3.item = 5)
LEFT JOIN sets ix ON (k.name = ix.name AND ix.item NOT IN (1, 3, 5))
WHERE ix.name IS NULL;

The idea is that we have all the set keys in k, which we then join with the set item data in sets once for each set item in the set we are searching for, three in this case. Each of the three inner joins with table aliases i1, i2 and i3 filter out all set names that don't contain the item searched for with that join. Finally, we have a left join with sets with table alias ix, which brings in all the extra items in the set, that is, every item we were not searching for. ix.name is NULL in the case that no extra items are found, which is exactly what we want, thus the WHERE clause. The query returns a row containing the set key if the set is found, no rows otherwise.


Edit: The idea behind collapsars answer seems to be much better than mine, so here's a bit shorter version of that with explanation.

SELECT sets.name
FROM sets
LEFT JOIN (
    SELECT DISTINCT name
    FROM sets
    WHERE item NOT IN (1, 3, 5)
) s1
ON (sets.name = s1.name)
WHERE s1.name IS NULL
GROUP BY sets.name
HAVING COUNT(sets.item) = 3;

The idea here is that subquery s1 selects the keys of all sets that contain items other that the ones we are looking for. Thus, when we left join sets with s1, s1.name is NULL when the set only contains items we are searching for. We then group by set key and filter out any sets having the wrong number of items. We are then left with only sets which contain only items we are searching for and are of the correct length. Since sets can only contain an item once, there can only be one set satisfying that criteria, and that's the one we're looking for.


Edit: It just dawned on me how to do this without the exclusion.

SELECT totals.name
FROM (
    SELECT name, COUNT(*) count
    FROM sets
    GROUP BY name
) totals
INNER JOIN (
    SELECT name, COUNT(*) count
    FROM sets
    WHERE item IN (1, 3, 5)
    GROUP BY name
) matches
ON (totals.name = matches.name)
WHERE totals.count = 3 AND matches.count = 3;

The first subquery finds the total count of items in each set and the second one finds out the count of matching items in each set. When matches.count is 3, the set has all the items we're looking for, and if totals.count is also 3, the set doesn't have any extra items.

share|improve this answer
    
I don't think it is necessary to do the exclusion: –  momeara Mar 31 '11 at 13:10
    
@momeara If we don't exclude sets that have items other than the ones we're looking for, the query will return all sets which have the same number of items and even one matching item. That is, a search for the set (1, 3, 5) could also return (1, 4, 7), since it has the same length, 1 is one of the searched items and we're not excluding sets that contain non-searched items. –  Aleksi Torhamo Mar 31 '11 at 21:27

aleksis solution requires an specific query for every posssible item set. the following suggestion provides a generic solution in the sense that the item set to be queried can be factored in as a result set of another query - just replace the set containment operators by a suitable subquery.

     SELECT CASE COUNT(ddd.key) WHEN 0 THEN NULL ELSE MIN(ddd.key) END
       FROM (
                 SELECT s4.key
                      , COUNT(*) icount
                   FROM sets s4
                   JOIN (
                          SELECT DISTINCT d.key
                            FROM (
                                   SELECT s1.key
                                     FROM sets s1
                                    WHERE s1.item IN ('item1', 'item3', 'item5')
                                    MINUS
                                   SELECT s2.key
                                     FROM sets s2
                                    WHERE s2.item NOT IN ('item1', 'item3', 'item5')
                                 ) d    
                         ) dd ON ( dd.key = s4.key )
                GROUP BY s4.key
             ) ddd
       WHERE ddd.icount = (
                             SELECT COUNT(*)
                               FROM (
                                      SELECT DISTINCT s3.item
                                        FROM sets s3
                                       WHERE s3.item IN ('item1', 'item3', 'item5')
                                    )
                          )
           ;                 

the result set dd delivers a candidate set of keys who do not asscociate with other items than those from the set to be tested. the only ambiguity may arise from keys who reference a proper subset of the tested item set. thus we count the number of items associated with the keys of dd and choose that key where this number matches the cardinality of the tested item set. if such a key exists it is unique (as we know that the item sets are unique). the case expression in the outermost select is just a fancy way to guarantee that their will be no empty result set, i.e. a null value will be returned if the item set is not represented by the relation.

maybe this solution will be useful to you,

best regards

carsten

share|improve this answer
    
That's pretty clever. Thanks! –  momeara Mar 30 '11 at 13:12

This query has a well known name. Google "relational division", "set containment join", "set equality join".

share|improve this answer
    
I've never heard the name before. –  Marcin Feb 4 '12 at 9:03

To simplify collapsar's solution, which was already simplified by Aleksi Torhamo:

It isn't necessary to get all keys that DO NOT MATCH, which could be large, just get the ones that do match and call them partial matches.

-- get all partial matches
CREATE TEMPORARY VIEW partial_matches AS
SELECT DISTINCT key FROM sets WHERE item IN (1,3,5);

-- filter for full matches
SELECT sets.key
FROM  sets, partial_matches
WHERE sets.key = partial_matches.key
GROUP BY sets.key HAVING COUNT(sets.key) = 3;
share|improve this answer
    
That does not work. I think you mean COUNT(sets.item). If you change that, and have sets (1, 3, 5) and (1, 4, 7) in the database, searching for (1, 3, 5) would return both, since both contain partial matches (1 alone is enough for the other set be considered a partial match) and both have the correct number of items. –  Aleksi Torhamo Mar 31 '11 at 21:18
    
yeah I think you're right! –  momeara Apr 1 '11 at 18:27

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